Ce cours donne une introduction aux principes généraux de la motilité cellulaire.
Références
Brownian Motion in Biology, H. Berg.
E. Coli in Motion, H. Berg.
Nuris Figueroa-Morales, Rodrigo Soto, Gaspard Junot, Thierry Darnige, Carine Douarche, Vincent A. Martinez, Anke Lindner, and Éric Clément, "3D Spatial Exploration by E. coli Echoes Motor Temporal Variability", Physical Review X, 10, 021004 (2020).
Mark Shnitzer, "Theory of Contnuum Random Walks and Applications to Chemotaxis", Phys. Rev. E, 48, 2553 (1993).
Shuvasree SenGupta, Carole A. Parent & James E. Bear, "The Principles of Directed Cell Migration", Nature Reviews Molecular Cell Biology, 22, 529–547 (2021).
Adam Shellard and Roberto Mayor, "All Roads Lead to Directional Cell Migration", Trends in Cell Biology, 30, 852 (2020).
P.-G. de Gennes, "Chemotaxis: The Role of Internal Delays", European Biophysical Journal, 33: 691–693 (2004).
E. Keller and L. Segel, "Model for Chemotaxis", J. theor. Biol., 30, 225-234 (1971).
Paolo Maiuri et al., "Actin Flows Mediate a Universal Coupling between Cell Speed and Cell Persistence", Cell, 161, 374–386, (2015).
H.C.Berg and E.M.Purcell, "Physics of Chemoreception", 20, 193-219 (1977).
Herbert Levine, David A. Kessler, and Wouter-Jan Rappel, "Directional Sensing in Eukaryotic Chemotaxis: A Balanced Inactivation Model", PNAS, 103, 9761–9766 (2006).
Pablo A Iglesias and Peter N Devreotes, "Navigating through models of chemotaxis" Current Opinion in Cell Biology, 20, 35–40 (2008).